System and method for triggering a provisioning event

ABSTRACT

Systems and methods are provided for triggering a provisioning event in a service provider using a provisioning request message generated by an external system. A provisioning system may be used to receive the provisioning request message from the external system and transmit information in the provisioning request message to the service provider to trigger the provisioning event. The provisioning request message may have a data structure that includes a header section and a body section. The body section may contain a provisioning entity section that includes information identifying an entity to which the provisioning event pertains, wherein the provisioning entity section includes one or more attributes defined by the external system.

CROSS-REFERENCE TO RELATED APPLICATIONS

This is a continuation of U.S. application Ser. No. 10/643029, filedAug. 18, 2003, which claims priority from U.S. Provisional ApplicationNo. 60/403634, filed Aug. 16, 2002, both applications herebyincorporated herein by reference.

FIELD

The technology described in this patent document relates generally tothe field of provisioning systems. More particularly, the patentdocument describes a system and method for triggering a provisioningevent that is particularly well-suited for triggering provisioningevents in a mobile data service from an external system.

BACKGROUND AND SUMMARY

Provisioning is a general term that is commonly used in the field ofmobile communications in reference to the process by which servicesprovided by a service provider are managed. In accordance with theteachings described herein, systems and methods are provided fortriggering a provisioning event in a service provider using aprovisioning request message generated by an external system. Aprovisioning system may be used to receive the provisioning requestmessage from the external system and transmit information in theprovisioning request message to the service provider to trigger theprovisioning event. The provisioning request message may have a datastructure that includes a header section and a body section. The bodysection may contain a provisioning entity section that includesinformation identifying an entity to which the provisioning eventpertains, wherein the provisioning entity section includes one or moreattributes defined by the external system.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of an example system for provisioning a mobiledata service;

FIG. 2 is an entity relationship diagram of an example provisioningrequest message format;

FIG. 3 is an entity relationship diagram of an example provisioningreply message format; and

FIG. 4 is a block diagram of a mobile communication device that may beused with a mobile data service.

DETAILED DESCRIPTION

With reference now to the drawing figures, FIG. 1 is a block diagram ofan example system for provisioning a mobile data service 106. The systemincludes an external system 100, a provisioning system 104 and a mobiledata service 106. Also illustrated are a provisioning request 108transmitted from the external system 100 to the provisioning system 104and a provisioning response 110 transmitted from the provisioning system104 to the external system 100.

In operation, the provisioning system 104 enables an external system 100to trigger provisioning events for a mobile data service 106. Examplesof provisioning events are activation of a service, deactivation of aservice, suspension of a service, resumption of a service, modificationof a service profile or service parameters, and gathering of statusinformation associated with a service.

The mobile data service 106 includes the various systems and devicesused to provide access to a wireless network from a mobile communicationdevice. The mobile data service 106 may, for example, enable a mobilecommunication device to send and receive data, such as electronic mail,over a wireless network. It should be understood, however, that otherservice providers in addition to a mobile data service 106 may also beprovisioned using the provisioning system 106.

The external system 100 may be any system or service external to themobile data service 106 that is authorized to trigger provisioningevents for the mobile data service 106. An example of an external system100 is a reseller of the mobile data service 106 through which end-userscan purchase contracts enabling them to use the mobile data service 106.

In order to trigger provisioning events, the external system 100 sends aprovisioning request 108 to the provisioning system 104. As noted above,provisioning events that may be triggered by a provisioning request 108include service activation, service cancellation, suspension of service,service modification, a service status request, or others. Uponreceiving the provisioning request 108, the provisioning system 104triggers the specified event in the mobile data service 106. Theprovisioning system 104 may also respond to the external system 100 bysending a provisioning reply 110. The provisioning reply 110 may, forexample, indicate whether the requested operation succeeded or failed,specify error and status information, or include other relevantinformation.

The provisioning system 104 may communicate with the mobile data service106 using any supported protocol. For example, protocols supported bythe mobile data service 106 may include Remote Method Invocation (RMI),Remote Procedure Call (RPC) and Lightweight Directory Access Protocol(LDAP).

In order to communicate with a plurality of different external systems100, the provisioning system 104 may expose an interface that can beaccessed using a widely supported and accessible protocol. For example,the provisioning system 104 may include a Java™ servlet which monitorsfor provisioning messages 108 on a computer network using the SecureHypertext Transfer Protocol (HTTPS).

The provisioning messages 108, 110 may contain complex and diverserequest and response details. For example, a provisioning message 108,110 may specify a mobile communication device for which it is requestingactivation on the mobile data service 106. Since there are many mobiledata services available, and each of these services typically has adifferent system for identifying mobile communication devices, theformat of provisioning messages 108, 110 should be able to handle thesecomplexities. Therefore, provisioning messages 108, 110 may be formattedin such a way that the message can express complex provisioning requestsand responses, while being easily constructed and interpreted by aplurality of different external systems 100. In addition, the format ofa provisioning message 108, 110 may allow for security credentials to beexchanged, so that the provisioning system 104 may verify the identityof an external system 100 that sends a provisioning request 108, and sothat the external system 100 may verify the identity of a provisioningsystem 104 that sends a provisioning reply 110.

FIGS. 2 and 3 are entity relationship diagrams of an exampleprovisioning request message format and an example provisioning replymessage format, respectively. The message format defines the structureof data entities within the provisioning message. Data entities arerepresented in FIGS. 2 and 3 within rectangular boxes, and relationshipsbetween the data entities are represented by lines connecting therectangular boxes. On each side of a connecting line, the cardinality ofthe relationship is illustrated by a numeral or set of numerals (with“N” representing a variable). For example, data entities 200 and 204(FIG. 2) are connected by a line having a numeral 1 at each side of therelationship. This illustrates a one-to-one relationship between dataentities 200 and 204. Data entities 204 and 210, however, are connectedby a line having a numeral 1 on one side of the relationship and a setof numerals {1, N} on the other side of the relationship. Thisillustrates that data entities 204 and 210 may have either a one-to-onerelationship or a one-to-many relationship.

With reference to FIG. 2, a provisioning request 200 message may includea transaction identification attribute, which contains a uniquetransaction identifier used by the provisioning system 104 (FIG. 1) toidentify a particular transaction. A transaction consists of aprovisioning request, a resulting provisioning event, and a provisioningresponse. The provisioning request 200 message may also include aversion attribute, which represents the version of the interface. Theprovisioning request message 200 may include a transaction typeattribute, which defines the type of action being requested. As notedabove, the type of action requested may be to activate, suspend, resume,cancel, modify or obtain status information regarding a service. Inaddition, the provisioning request 200 message may also include aproduct type attribute, which specifies the service to which theprovisioning request pertains, such as a particular mobile data service.

The provisioning request 200 message contains a header section 202 and abody section 204 section. The header section 202 contains a sendersection 206, which contains information relating to the sender of theprovisioning message, and a time stamp section 208, which contains thetime that the message was sent. The sender section 206 may include anidentification attribute, which contains a unique identifier for thesender. The sender section 206 may also include a name attribute, whichcontains a unique name for the sender.

The sender section 206 contains a login section 212 and a passwordsection 214, which may be used by the provisioning system 104 (FIG. 1)to authenticate the identity of the sender. Authentication preventsunauthorized external systems from successfully interfacing with theprovisioning system 104 (FIG. 1).

The time stamp section 208 may include a format attribute, whichspecifies a date format for the timestamp, such as that defined by theISO-8601 standard.

The body section 204 contains one or more provisioning entity sections210 that may be defined by the external system. A provisioning entitysection 210 identifies an entity to which the provisioning requestapplies. A provisioning entity section 210 may include a name attributewhich contains generic information identifying the entity, such asinformation identifying the entity as a mobile communication device. Theprovisioning entity section 210 may also have a type attribute, whichcontains further information to identify the entity, such as the modelnumber for a mobile communication device.

In addition, a provisioning entity section 210 may contain one or moreadditional nested provisioning entity sections 210 to provide for ahierarchical provisioning entity structure. For example, an externalsystem may have a subscriber-centric view of the data and thereforedefine a top-level provisioning entity section 210 to represent asubscriber object, which may be identified by specific provisioning dataitems attributes, such as MSISDN, IMSI, or others. Specific services andentities (e.g., mobile communication devices) may then be representedwithin the top-level provisioning entity 210 as additional (i.e.,nested) provisioning entity sections 210 for the purposes ofprovisioning.

In another example of nested provisional entity sections 210, anexternal system may have a service-centric view of the data andtherefore define a top-level provisioning entity section 210 torepresent a service, which may be identified by specific provisioningdata item attributes such as price, service plan type, service number,or others. Specific entities (e.g., mobile communication devices) andsubscribers may then be represented within the top-level provisioningentity as additional (i.e., nested) provisioning entity sections. Anumber of subscribers may then be nested such that each subscriberrepresents a separate provisioning transactions within the broadercontext of the provisioning request (e.g., a batch service activationfor a plurality of subscribers).

Each provisioning entity section 210 contains one or more provisioningdata item sections 216. A provisioning data item 216 section containsinformation that identifies a particular entity to which theprovisioning request pertains. Because numerous types of entities may beprovisioned, a provisioning data item section 216 includes a nameattribute, which specifies the type of information that is contained inthe section. For example, the name attribute may specify that theprovisioning data item section 216 contains a Personal IdentificationNumber (PIN), a product identifier, a billing identifier, anInternational Mobile Equipment Identification identifier (IMEI), anelectronic serial number (ESN), an International Mobile SubscriberIdentity identifier (IMSI), a Mobile Subscriber Integrated ServicesDigital Network number (MSISDN), or an Integrated Circuit CardIdentifier (ICCID). Thus, the message can specify requests to provisionentities on a plurality of diverse systems that use different schemesfor identifying entities.

Provisioning request messages 200 may, for example, be written inExtensible Markup Language (XML). XML is a widely supported languagethat is used to define the format of information to be exchanged betweendifferent systems and organizations. The format of an XML message isdefined by a Document Type Definition (DTD). An example DTD that may beused to create an XML message that contains a provisioning requestconforming to the formal illustrated in FIG. 2 is set forth in U.S.Provisional Application No. 60/403,634, which has been incorporatedherein by reference.

With reference now to FIG. 3, a provisioning reply message 300 mayinclude the same attributes described above with reference to theprovisioning request message 200 of FIG. 2, such as a transactionidentification attribute, a version attribute, a transaction typeattribute, and a product type attribute. The provisioning reply message300 contains a header section 302 and a body section 304.

The header section 302 contains a time stamp section 308, and maycontain a sender section 306 and a transaction code list section 310.The time stamp section 308 may include a format attribute, whichspecifies a date format for the timestamp, such as that defined by theISO-8601 standard. The sender section 306 may contain login 314 andpassword 316 sections, which an external system 100 may use toauthenticate a provisioning system 104 by sending a provisioning reply.

It may, for example, be useful to authenticate a provisioning system 104when provisioning messages are sent asynchronously. In asynchronousmessaging, a provisioning reply message is not returned in response to aprovisioning request method. Instead, an asynchronous messaging systemreturns an acknowledgement to indicate that a message was successfullyreceived. A provisioning reply is not sent until after the provisioningrequest has been processed. Thus, it is useful for the external system100 to verify the identity of the system that has sent the responseprior to taking any action based on the contents of the provisioningreply.

The transaction code list section 310 section may be used by theprovisioning system 104 to return error information or statusinformation relating to a provisioning request to the system that hassent the request. The transaction code list section 310 may include amajor code attribute, which defines the most severe error returned inthe message. The transaction code list section 310 may also include adescription attribute, which describes the error defined by the majorcode.

The transaction code list section 310 contains one or more transactioncode sections 318. Each transaction code section 318 may contain anerror code section 322, an error description section 324, a status codesection 326 and a status description section 328. The error code section322 specifies an error occurring while the provisioning system 104performs the action requested in a provisioning request message. Theerror description section 324 describes the error specified in the errorcode 322 section. The status code section 326 identifies the status of aprovisioning system entity resulting from the processing triggered byprovisioning request. The status description section 328 describes thestatus specified in the status code section 326.

Values for the error code section 322 and the error description section324, and for the major code attribute of the transaction code listsection 310, may be defined by the provider of the provisioning system104, and may include the following examples:

Error Major Code Code Error Description 0 N/A Success 21020 21000Service Already Active 21030 21000 Service Not Suspended 21040 21000Service Deactivated 21050 21000 Service Suspended 21510 21500 No lineitems found 46010 46000 Insufficient Permission to Request Activation46020 46000 Insufficient Permission to Request Deactivation/Modification 46030 46000 Insufficient Permission to Request Suspend46040 46000 Insufficient Permission to Request Resume 61020 61000Invalid Data: Missing Billing Identifier 61030 61000 Invalid Data:Insufficient Input 61040 61000 Invalid Request: Service Inactive/ServiceNot Found in Database 61080 61000 Invalid Data: Missing IMSI 61090 61000Invalid Data: Missing Input Information 61100 61000 Length must satisfyrange 61110 61000 Must belong to set 61120 61000 Must satisfy bothlength range and content format 61130 61000 Internal Error: Pleasecontact product support 61210 61000 Invalid Data: Requestor Resolved toOther 61220 61000 Invalid Data: Requestor Not Found 61510 61500 SystemError: Please try again later

Values for the status code section 326 and the status descriptionsection 328 may be defined by the provider of the provisioning system104, and may include the following examples:

Status Code Status Description 1 Service Deactivated 2 ServiceDeactivated after Modification 5 Service Suspended 11 Service Activated17 Service Activated via Handheld 18 Service Activated via Request

The body section 304 of the provisioning reply 300 contains one or moreprovisioning entity sections 312. Each provisioning entity section 312may include one or more additional nested provisioning entity sections312, as described above. In addition, each provisioning entity section312 may contain one or more provisioning data item section 320. The bodysection 304, including the provisioning entity 312 and provisioning dataitem 320 sections, are similar to those described above with referenceto FIG. 2.

In addition, the provisioning entity section 312 in the provisioningreply message 300 may also contain a transaction code section 318section, as described above, which specifies error or status informationrelated to the provisioning entity section 312 in which it is contained.

An example DTD that may be used to create an XML message that contains aprovisioning reply message conforming to the format illustrated in FIG.3 is set forth in U.S. Provisional Application No. 60/403,634, which hasbeen incorporated herein by reference. Also included in incorporatedU.S. Provisional Application 60/403,634 are example XML programs toperform provisioning transactions that are comprised of a provisioningrequest and a provisioning reply, including transactions to activate aservice, cancel a service, suspend a service, modify a service, andprovide status information for a service.

FIG. 4 is a block diagram of a mobile communication device 410 that maybe used with a mobile data service 106, as described above. That is, thecommunication device 410 is an example of a provisioning entity 210 forwhich a provisioning system 104 may provision a mobile data service 106in response to a provisioning request message 200.

The mobile communication device 410 includes a transceiver 411, amicroprocessor 438, a display 422, a Flash memory 424, a RAM memory 426,auxiliary input/output (I/O) devices 428, a serial port 430, a keyboard432, a speaker 434, a microphone 436, a short-range wirelesscommunications sub-system 440, and may also include other devicesub-systems 442. The transceiver 411 preferably includes transmit andreceive antennas 146, 418, a receiver 412, a transmitter 414, one ormore local oscillators 413, and a digital signal processor 420. Withinthe Flash memory 424, the device 410 preferably includes a plurality ofsoftware modules 424A-424N that can be executed by the microprocessor438 (and/or the DSP 420), including a voice communication module 424A, adata communication module 424B, and a plurality of other operationalmodules 424N for carrying out a plurality of other functions.

The mobile communication device 410 is preferably a two-waycommunication device having voice and data communication capabilities.That is, the device may communicate over a voice network, such as ananalog or digital cellular networks, and may also communicate over adata network. The voice and data networks are depicted in FIG. 4 by thecommunication tower 419, and may be separate communication networksusing separate infrastructure, such as base stations, networkcontrollers, etc., or may be integrated into a single wireless network.

The communication subsystem 411 is used to communicate with the voiceand data network 419, and includes the receiver 412, the transmitter414, the one or more local oscillators 413, and may also include the DSP420. The DSP 420 is used to send and receive signals to and from thetransmitter 414 and receiver 412, and is also utilized to receivecontrol information from the transmitter 414 and to provide controlinformation to the receiver 412. If the voice and data communicationsoccur at a single frequency, or closely-spaced set of frequencies, thena single local oscillator 413 may be used in conjunction with thetransmitter 414 and receiver 412. Alternatively, if differentfrequencies are utilized for voice communications and datacommunications, then a plurality of local oscillators 413 can be used togenerate a plurality of frequencies corresponding to the voice and datanetworks 419. It should be understood that although two antennas 416,418 are depicted in FIG. 4, the mobile device 410 could be used with asingle antenna structure.

Information, which includes both voice and data information, iscommunicated to and from the communication module 411 via a link betweenthe DSP 420 and the microprocessor 438. The detailed design of thecommunication subsystem 411, such as frequency band, componentselection, power level, etc., may be dependent upon the communicationnetwork 419 in which the device is intended to operate. For example, thedevice 410 may include a communication subsystem 411 designed to operatewith the Mobitex™, DataTAC™ and/or General Packet Radio Service (GPRS)data communication networks and may also be designed to operated withany of a variety of voice communication networks, such as GSM, AMPS,TDMA, CDMA, PCS, etc. Other types of data and voice networks, bothseparate and integrated, may also be utilized with the mobile device410.

Depending upon the type of network 419 (or networks), the accessrequirements for the dual-mode mobile device 410 may also vary. Forexample, in the Mobitex and DataTAC data networks, mobile devices areregistered on the network using a unique identification numberassociated with each device. In GPRS data networks, however, networkaccess is associated with a subscriber or user of a device 410. A GPRSdevice typically requires a subscriber identity module (“SIM”), which isrequired in order to operate the device 410 on a GPRS network. Local ornon-network communication functions (if any) may be operable, withoutthe SIM device, but the device 410 will be unable to carry out anyfunctions involving communications over the data network 419, other thanany legally required operations, such as 911 emergency calling.

After any required network registration or activation procedures havebeen completed, the mobile communication device 410 may send and receivecommunication signals, including both voice and data signals, over thenetwork 419 (or networks). Signals received by the antenna 416 from thecommunication network 419 are routed to the receiver 412, which providessignal amplification, frequency down conversion, filtering, channelselection, etc., and may also provide analog to digital conversion.Analog to digital conversion of the received signal allows more complexcommunication functions, such as digital demodulation and decoding to beperformed using the DSP 420. In a similar manner, signals to betransmitted to the network 419 are processed (e.g., modulated andencoded) by the DSP 420 and are provided to the transmitter 414 fordigital to analog conversion, frequency up conversion, filtering,amplification and transmission to the communication network 419 (ornetworks) via the antenna 418. It should be understood that although asingle transceiver 411 is shown in FIG. 4 for both voice and datacommunications, the device 410 may include two distinct transceivers—afirst transceiver for transmitting and receiving voice signals, and asecond transceiver for transmitting and receiving data signals.

In addition to processing the communication signals, the DSP 420 mayalso provide receiver and transmitter control. For example, the gainlevels applied to communication signals in the receiver 412 andtransmitter 414 may be adaptively controlled through automatic gaincontrol algorithms implemented in the DSP 420. Other transceiver controlalgorithms could also be implemented in the DSP 420 to provide moresophisticated control of the transceiver 411.

The microprocessor 438 preferably manages and controls the overalloperation of the mobile communication device 410. The microprocessor 438may, for example, be one of various types of microprocessors ormicrocontrollers, or, alternatively, may be a digital signal processorDSP 420 or some other type of processing device. Low-level communicationfunctions, including data and voice communications, may be performedthrough the DSP 420 in the transceiver 411. Other, high-levelcommunication applications, such as a voice communication application424A and a data communication application 424B may be stored in theFlash memory 424 for execution by the microprocessor 438. For example,the voice communication module 424A may provide a high-level userinterface operable to transmit and receive voice calls between themobile communication device 410 and a plurality of other voice devicesvia the network 419. Similarly, the data communication module 424B mayprovide a high-level user interface operable to send and receive data,such as e-mail messages, files, organizer information, short textmessages, etc., between the mobile communication device 410 and aplurality of other data devices via the network 419. The microprocessor438 may also interact with other device subsystems, such as the display422, Flash memory 424, random access memory (RAM) 426, auxiliaryinput/output (I/O) subsystems 428, serial port 430, keyboard 432,speaker 434, microphone 436, a short-range communications subsystem 440and any other device subsystems generally designated as 442.

Some of the subsystems shown in FIG. 4 perform communication-relatedfunctions, whereas other subsystems may provide “resident” or on-devicefunctions. In addition, some subsystems, such as keyboard 432 anddisplay 422 may be used for both communication-related functions, suchas entering a text message for transmission over a data communicationnetwork, and device-resident functions such as a calculator or task listor other PDA type functions.

Operating system software used by the microprocessor 438 may be storedin a persistent store such as Flash memory 424. In addition to theoperation system, which controls low-level functions, the Flash memory424 may include a plurality of high-level software application programs,or modules, such as a voice communication module 424A, a datacommunication module 424B, an organizer module (not shown), or any othertype of software module 424N. The Flash memory 424 also may include afile system for storing data. These modules are executed by themicroprocessor 438 and provide a high-level interface between a user ofthe device and the device. The high-level interface typically includes agraphical component provided through the display 422, and aninput/output component provided through the auxiliary I/O 428, keyboard432, speaker 434, and microphone 436. The operating system, specificdevice applications or modules, or parts thereof, may be temporarilyloaded into a volatile store, such as RAM 426 for faster operation.Moreover, received communication signals may also be temporarily storedto RAM 426, before permanently writing them to a file system located inthe persistent store 424.

An exemplary application module 424N that may be loaded onto the mobilecommunication device 410 is a personal information manager (PIM)application providing PDA functionality, such as calendar events,appointments, and task items. The application module 424N may alsointeract with the voice communication module 424A for managing phonecalls, voice mails, etc., and may also interact with the datacommunication module for managing e-mail communications and other datatransmissions. Alternatively, all of the functionality of the voicecommunication module 424A and the data communication module 424B may beintegrated into the PIM module.

The Flash memory 424 may provide a file system to facilitate storage ofPIM data items on the device. The PIM application may include theability to send and receive data items, either by itself, or inconjunction with the voice and data communication modules 424A, 424B,via the wireless network 419. The PIM data items are preferablyseamlessly integrated, synchronized and updated, via the wirelessnetwork 419, with a corresponding set of data items stored or associatedwith a host computer system, thereby creating a mirrored system for dataitems associated with a particular user.

The mobile device 410 may also be manually synchronized with a hostsystem by placing the device 410 in an interface cradle, which couplesthe serial port 430 of the mobile device 410 to the serial port of thehost system. The serial port 430 may also be used to enable a user toset preferences through an external device or software application, orto download other application modules 424N for installation. This wireddownload path may be used to load an encryption key onto the device.

Additional application modules 424N may be loaded onto the mobilecommunication device 410 through the network 419, through an auxiliaryI/O subsystem 428, through the serial port 430, through the short-rangecommunications subsystem 440, or through any other suitable subsystem442, and installed by a user in the Flash memory 424 or RAM 426. Suchflexibility in application installation increases the functionality ofthe device 410 and may provide enhanced on-device functions,communication-related functions, or both. For example, securecommunication applications may enable electronic commerce functions andother such financial transactions to be performed using the device 410.

When the mobile communication device 410 is operating in a datacommunication mode, a received signal, such as a text message or a webpage download, will be processed by the transceiver 411 and provided tothe microprocessor 438, which will preferably further process thereceived signal for output to the display 422, or, alternatively, to anauxiliary I/O device 428. A device user may also compose data items,such as email messages, using the keyboard 432, which is preferably acomplete alphanumeric keyboard laid out in the QWERTY style, althoughother styles of complete alphanumeric keyboards such as the known DVORAKstyle may also be used. User input to the device 410 is further enhancedwith a plurality of auxiliary I/O devices 428, which may include athumbwheel input device, a touchpad, a variety of switches, a rockerinput switch, etc. The composed data items input by the user may then betransmitted over the communication network 419 via the transceiver 411.

When the mobile communication device 410 is operating in a voicecommunication mode, the overall operation of the device 410 issubstantially similar to the data mode, except that received signals arepreferably be output to the speaker 434 and voice signals fortransmission are generated by a microphone 436. Alternative voice oraudio I/O subsystems, such as a voice message recording subsystem, mayalso be implemented on the device 410. Although voice or audio signaloutput is preferably accomplished primarily through the speaker 434, thedisplay 422 may also be used to provide an indication of the identity ofa calling party, the duration of a voice call, or other voice callrelated information. For example, the microprocessor 438, in conjunctionwith the voice communication module and the operating system software,may detect the caller identification information of an incoming voicecall and display it on the display 422.

A short-range communications subsystem 440 may also be included in thedual-mode device 410. For example, the subsystem 440 may include aninfrared device and associated circuits and components, or a Bluetooth™short-range wireless communication module to provide for communicationwith similarly-enabled systems and devices.

This written description uses examples to disclose the invention,including the best mode, and also to enable a person skilled in the artto make and use the invention. The patentable scope of the invention mayinclude other examples that occur to those skilled in the art.

1. A system for triggering a plurality of provisioning events using asingle, hierarchical provisioning request message stored in acomputer-readable medium generated by an external system, thehierarchical provisioning request message identifying a plurality ofprovisioning events from a plurality of service providers to request foran entity, comprising: a provisioning system operable to electronicallyreceive the single, hierarchical provisioning request message from theexternal system and transmit information in the hierarchicalprovisioning request message to each of the plurality of serviceproviders identified in the hierarchical provisioning request to triggerthe provisioning events, wherein the provisioning system is separatefrom the external system and the plurality of service providers; and thehierarchical provisioning request message being a format-independentelectronic message capable of being constructed by and interpreted by aplurality of different external systems, the hierarchical provisioningrequest message having a data structure that includes informationidentifying the entity to which the plurality of provisioning eventspertain, wherein the identifying information includes one or moreattributes defined by the external system, wherein the hierarchicalprovisioning request message further includes a provisioning event datastructure associated with each of the plurality of provisioning eventsrequested for the entity, wherein the provisioning event data structureidentifies a service provider associated with a provisioning eventrequested for the entity.
 2. The system of claim 1 wherein the pluralityof provisioning events include one or more of activation of a service,deactivation of a service, suspension of a service, resumption of aservice, modification of a service profile or service parameters, andobtaining status information regarding a service.
 3. The system of claim1 wherein the provisioning system uses a provisioning reply to returnstatus or error information relating to the hierarchical provisioningrequest message to the external system.
 4. The system of claim 1 whereinthe provisioning system is in communication with the external system andthe plurality of service providers, wherein a service provider isoperable to communicate with the entity to cause one of the provisioningevents to occur in response to receiving the information from thehierarchical provisioning request message received from the provisioningsystem.
 5. The system of claim 1 wherein the service provider isoperable to provide mobile communication service to the entity.
 6. Thesystem of claim 1, wherein the one or more attributes include a nameattribute that identifies the entity.
 7. The system of claim 1, whereinthe one or more attributes include a type attribute that identifies anentity type of the entity.
 8. The system of claim 1, wherein the serviceprovider is a mobile data service provider.
 9. The system of claim 1,wherein the hierarchical provisioning request message further includesprovisioning data that identifies a particular entity to which theplurality of provisioning events pertain.
 10. A system for triggering aplurality of provisioning events in a mobile communication device usinga single, hierarchical provisioning request message, the hierarchicalprovisioning request message identifying a plurality of provisioningevents to request for an entity, comprising: a plurality of serviceproviders in communication with the mobile device, one or more of theplurality of service providers providing mobile communication servicesto the mobile device; a system external to the service provider, thesystem operable to generate the single, hierarchical provisioningrequest message to trigger the plurality of provisioning events; aprovisioning system in communication with the service provider and thesystem, the provisioning system operable to electronically receive thesingle, hierarchical provisioning request message from the externalsystem and to transmit information in the hierarchical provisioningrequest message to each of the plurality of service providers identifiedin the hierarchical provisioning request over a computer network totrigger the provisioning events in the mobile device, wherein theprovisioning system is separate from the external system and theplurality of service providers; and the hierarchical provisioningrequest message being a format-independent electronic message capable ofbeing instructed and interpreted by a plurality of different externalsystems, the hierarchical provisioning request message having a datastructure that includes information identifying the mobile device towhich the plurality of provisioning events pertain, the identifyinginformation including one or more attributes defined by the externalsystem, wherein the hierarchical provisioning request message furtherincludes a provisioning event data structure associated with each of theplurality of provisioning events requested for the entity, wherein theprovisioning event data structure identifies a service providerassociated with a provisioning event requested for the entity.
 11. Thesystem of claim 10 and wherein the plurality of provisioning eventsinclude one or more of activation of a service, deactivation of aservice, suspension of a service, resumption of a service, modificationof a service profile or service parameters, and obtaining statusinformation regarding a service.
 12. The system of claim 11 wherein thestatus information describes the status of the mobile device after thehierarchical provisioning request message has been processed.
 13. Thesystem of claim 10 wherein the provisioning system uses a provisioningreply to return status information or error information relating to thehierarchical provisioning request message to the external system. 14.The system of claim 10 wherein the error information describes an errorthat occurred while the provisioning system performed an action in thehierarchical provisioning request message.
 15. A system, comprising: aprocessor; a computer-readable storage medium containing instructionsoperable to cause the processor to perform operations including:receiving at a provisioning system, a single, hierarchical provisioningrequest message generated by an external system, wherein theprovisioning request message is a format-independent electronic messagecapable of being constructed and interpreted by a plurality of differentexternal systems, the hierarchical provisioning request messageidentifying a plurality of provisioning events to request for an entity,wherein the hierarchical provisioning request message includes aprovisioning event data structure associated with each of the pluralityof provisioning events requested for the entity, wherein theprovisioning event data structure identifies a service providerassociated with a provisioning event requested for the entity;transmitting the received hierarchical provisioning request message fromthe provisioning system to a plurality of service providers, one or moreof the plurality of service providers being operable to process thehierarchical provisioning request message and to provide mobilecommunication service to the entity; and transmitting the receivedprovisioning reply from the provisioning system to the external system.16. The system of claim 15 wherein providing mobile communicationservice includes one or more of activation of a service, deactivation ofa service, suspension of a service, resumption of a service,modification of a service profile or service parameters, and obtainingstatus information regarding a service
 17. The system of claim 15wherein the provisioning reply includes status information or errorinformation relating to the hierarchical provisioning request message,the status information describes the status of the entity after thehierarchical provisioning request message has been processed, and theerror information describes an error that occurred while performing anaction in the hierarchical provisioning request message
 18. A method fortriggering a plurality of provisioning events using a single,hierarchical provisioning request message generated by an externalsystem, the hierarchical provisioning request message identifying aplurality of provisioning events to request for an entity, the methodcomprising: receiving at a provisioning system, the single, hierarchicalprovisioning request message generated by the external system, thehierarchical provisioning request message identifying a plurality ofprovisioning events to request for an entity, wherein the hierarchicalprovisioning request message includes a provisioning event datastructure associated with each of the plurality of provisioning eventsrequested for the entity, wherein the provisioning event data structureidentifies a service provider associated with a provisioning eventrequested for the entity; transmitting the received hierarchicalprovisioning request message from the provisioning system to a pluralityof service providers, one or more of the plurality of service providersbeing operable to process the hierarchical provisioning request messageand to provide mobile communication service to the entity; andtransmitting the received provisioning reply from the provisioningsystem to the external system.
 19. The system of claim 18 whereinproviding mobile communication service includes one or more ofactivation of a service, deactivation of a service, suspension of aservice, resumption of a service, modification of a service profile orservice parameters, and obtaining status information regarding a service20. The system of claim 18 the provisioning reply including statusinformation or error information relating to the hierarchicalprovisioning request message, and the status information describing thestatus of the entity after the hierarchical provisioning request messagehas been processed, and the error information describing an error thatoccurred while performing an action in the hierarchical provisioningrequest message.